unusual skin tumors
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U nus ual Skin Tum ors :Merkel Cel l Ca rci noma,
Eccrine Carci noma,Glomus Tumors, andDermatofibrosarcomaProtuberans
Jesse L. Kampshoff, MDa, Thomas H. Cogbill, MDb,*
MERKEL CELL CARCINOMA
In 1975, Friedrich Sigmond Merkel first described an epidermal, nondendritic, nonker-atinocyte cell that would later bear his name.1 In 1972, Toker2 described trabecular
cell cancer of the skin; later evaluation with electron microscopy in 1978 suggested
Merkel cell origin. The name Merkel cell carcinoma (MCC) was later coined by DeWolf-
Peeters in 1980. The names trabecular cell carcinoma, primary small cell carci-
noma of the skin, and anaplastic carcinoma of the skin all have been used to
describe MCC.
Epidemiology
MCC is a rare, aggressive cutaneous malignancy that primarily affects older white
persons. The average age at diagnosis is approximately 70 years. The incidence in
white persons is 0.23 per 100,000, whereas in black persons it is 0.01 per 100,000.
There are an estimated 470 new cases in the United States per year. Approximately
2000 cases have been reported in the literature. Incidence in men has been estimated
at more than twice that in women.1,3,4
a Department of Medical Education, Gundersen Lutheran Medical Foundation, 1900 South
Avenue, C03-006A, La Crosse, WI 54601, USAb Department of General and Vascular Surgery, Gundersen Lutheran Health System, 1900 SouthAvenue, C05-001, La Crosse, WI 54601, USA* Corresponding author.E-mail address: [email protected] (T.H. Cogbill).
KEYWORDS
Merkel cell carcinoma Eccrine carcinoma Glomus tumors Dermatofibrosarcoma protuberans Unusual skin tumors
Surg Clin N Am 89 (2009) 727738doi:10.1016/j.suc.2009.02.005 surgical.theclinics.com0039-6109/09/$ see front matter 2009 Elsevier Inc. All rights reserved.
mailto:[email protected]://surgical.theclinics.com/http://surgical.theclinics.com/mailto:[email protected] -
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Etiology
The exact etiology of MCC is not well understood, but several observations have been
made. It seems to arise more frequently in sun-exposed areas of the body, although all
areas have been described as primary sites. Perianal and vulvar sites have the worst
prognosis of all primary sites. An increased incidence of MCC has been observed inpatients who have HIV or cancer or have undergone organ transplant, suggesting
a link between MCC and immunosuppression. Viral and carcinogenic chemical (eg,
arsenic and methoxsalen) etiologies have been implied in the development of MCC.
Numerous chromosomal abnormalities also have been observed, but a definitive
causal relationship has not been established.
Presentation
MCC appears as a fast-growing, nontender, flesh- or red-bluecolored, firm intracu-
taneous mass (Fig. 1). Most lesions are smaller than 2 cm in diameter at the time of
diagnosis. MCC often arises in sun-exposed areas. Regional lymph nodes areinvolved in up to 30% of patients, and approximately 50% of patients develop
systemic disease at some point. Secondary sites of spread include skin (28%), lymph
nodes (27%), liver (13%), lung (10%), bone (10%), and brain (6%). Making the diag-
nosis of MCC clinically is difficult because the lesion can be mistaken for other cuta-
neous malignancies.1,3
Pathology
Histologic evaluation reveals a lesion that arises in the dermis and often extends into
the subcutaneous tissue. The epidermis can be involved and may be ulcerated. The
tumor consists of small blue cells with hyperchromatic nuclei and scant cytoplasm(Fig. 2). Mitoses, apoptosis, and lymphovascular invasion are common features. Three
histologic subtypes have been describedintermediate, trabecular, and small cell
although no clinically significant differences have been described between subtypes.
Immunohistochemical evaluation is necessary to distinguish MCC from other cancers.
The pathologic differential diagnosis includes small-cell lung carcinoma, small-cell
melanoma, lymphoma, and peripheral primitive neuroectodermal tumor.1,3,4
Evaluation and Staging
All patients with histologically confirmed MCC should undergo imaging to evaluate the
extent of disease. Evaluation includes a thorough skin examination and chest
Fig.1. Photograph of Merkel cell carcinoma lesions on leg.
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radiograph to exclude small-cell lung carcinoma. CT scans of the chest, abdomen,
and pelvis are necessary to detect metastatic disease (Fig. 3). Head CT should be per-
formed in symptomatic patients. Positron emission tomographic CT has been used in
some studies in the evaluation of MCC and can be useful for staging and follow-up.
Various staging systems based on size, nodal status, and metastasis have been
proposed for MCC. The most recent system proposed by investigators at Memorial
Sloan-Kettering is shown in Table 1.1,5
Treatment
Wide local excision (WLE) is the mainstay for treatment of disease that is confined to
the skin. The degree of margin excision is not well defined, but 1- to 3-cm margins
Fig. 3. Coronal view abdominal CT scan reveals metastatic Merkel cell carcinoma in largeretroperitoneal mass and liver lesions.
Fig. 2. Merkel cell carcinoma histology demonstrates sheets of cells with hyperchromatic
nuclei and high nuclear-cytoplasmic ratio. The cells show characteristic nuclear moldingand marked mitotic activity. (Courtesy of M. Arida, MD, and J. Janis, MD, La Crosse, WI.)
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have been recommended. In cosmetically sensitive areas, Mohs surgery may be help-
ful, although research is limited.1
Lymph node dissection is often performed because up to one third of patients have
nodal involvement. It is not clear whether lymph node dissection has an impact onsurvival, but it seems to benefit locoregional control. Clinically or radiographically posi-
tive nodes should be resected, but it is unclear whether elective lymph node dissection
provides benefit. Sentinel lymph node biopsy (SLNB) is a reasonable option in clini-
cally node-negative patients to provide staging information and guide further treat-
ment.1,3,4 Nearly one third of patients who have MCC without clinical evidence of
nodal disease have positive SLNB results.6,7 In one study, 33% of patients with posi-
tive SLNB results developed local, regional, or systemic recurrence of disease.6 None
of the 15 patients with positive SLNB results who underwent subsequent lymph node
dissection experienced regional recurrence versus three of four patients in whom ther-
apeutic lymphadenectomy was not performed. Gupta and associates7
documenteda 3-year recurrence rate of 60% in patients who had MCC and positive SLNB results
versus 20% for patients with negative SLNB results. Patients with positive SLNB
results who received additional treatment to the nodes had a relapse-free survival
rate of 51% at 3 years versus 0% for patients who did not receive additional nodal
therapy. Lymphadenectomy did not affect relapse-free survival rates in patients with
negative SLNB results.7
MCC is a radiosensitive tumor, and radiation therapy is often used in combination
with surgical excision, especially with positive or close excisional margins. Some
have recommended routine postoperative radiation therapy to the primary tumor
site for even localized disease.4 Radiation therapy to the primary tumor site andregional lymph nodes can reduce locoregional recurrence rates, but the survival
benefit is not known.1
Chemotherapy is used for nodal, metastatic, and recurrent MCC, but the optimal
regimen is not established. The most common agents used are cyclophosphamide,
anthracyclines, and cisplatin. Regimens are similar to those used for small-cell lung
carcinoma. Response is seen in approximately 60% of patients. Because MCC is
Table1
TNM staging for Merkel cell carcinoma
Score Characteristic
T1 Primary tumor < 2 cm in diameter
T2 Primary tumor R 2 cm in diameter
N0 Negative regional lymph nodes
N1 Positive regional lymph nodes
M0 No distant metastatic disease
M1 Distant metastatic disease
Stage TNM score combinations
I T1, N0, M0
II T2, N0, M0
III Any T, N1, M0
IV Any T, Any N, M1
Abbreviations: M, metastasis; N, node; T, tumor; TNM, tumor, node, metastasis.Data from Allen PJ, Bowne WB, Jaques DP, et al. Merkel cell carcinoma: prognosis and treatment
of patients from a single institution. J Clin Oncol 2005;23(10):23009.
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a disease that affects older patients, chemotherapy can be poorly tolerated secondary
to associated comorbidities.1,3,4
Prognosis
The prognosis of MCC is related to the stage of disease. Five-year survival rate is 81%for stage I, 67% for stage II, 52% for stage III, and 11% for stage IV.5 More than half of
patients experience recurrence, usually within 1 year of treatment.1,3
Summary
MCC is an unusual, aggressive cutaneous malignancy that affects the elderly popula-
tion but can be seen in younger, immunosuppressed patients. Disease confined to the
skin is best managed by WLE. Multimodal treatment that consists of surgery, radia-
tion, and chemotherapy is required for more widespread disease. Because of the rarity
of recurrent or metastatic MCC, optimal treatment regimens have not yet beendefined. Unfortunately, advanced disease and recurrence are common.
ECCRINE CARCINOMA
There are three types of sweat glands in the human body: eccrine, apocrine, and
apoeccrine. Eccrine carcinoma is an extremely rare neoplasm of the eccrine sweat
glands; it has a slow rate of growth and a high potential for recurrence. Numerous
subtypes with different biologic and pathologic characteristics make the topic a chal-
lenging one. More than 10 subtypes are known, including eccrine porocarcinoma,
hidradenocarcinoma, mucinous eccrine carcinoma, adenoid cystic carcinoma,aggressive digital papillary adenocarcinoma, microcystic adnexal carcinoma, mucoe-
pidermoid carcinoma of the skin, eccrine spiradenoma, eccrine ductal adenocarci-
noma, clear cell eccrine carcinoma, carcinosarcoma, and basaloid eccrine
carcinoma.8,9
Epidemiology
Sweat gland malignancy accounts for approximately 0.005% of all malignant epithelial
neoplasms.8 In one series of 450,000 skin biopsy specimens, only 35 specimens were
sweat gland carcinomas.10
A review at the Mayo Clinic8
covering more than 75 yearsof skin tumor specimens found 14 cases of eccrine carcinoma. Because of the rarity
and the multiple subtypes, whether race or gender predisposes to the tumor is not well
documented. Eccrine carcinoma occurs most often in patients over 50 years of age.
Etiology
The etiology is not known, but eccrine carcinoma can develop de novo from normal
eccrine glands or from existing benign eccrine tumors. As with many other skin
tumors, sunlight exposure and immunosuppression are thought to play a role.
Presentation
Most often these tumors present as a slow-growing, solitary, nontender, firm, nonul-
cerated dermal nodule that is fixed to the underlying tissue. The range of size at
presentation in one series was 0.5 to 5 cm in diameter.8 The most common sites of
occurrence are the head, neck, and extremities, but various subtypes have unique
distributions.810
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Pathology
Because of the numerous subtypes and the varied appearance of each, a detailed
histologic description of the subtypes is beyond the scope of this article; however,
general characteristics include nuclear hyperchromasia, nuclear pleomorphism,
nucleolar prominence, high nucleocytoplasmic ratios, and infiltration of vascularlumina (Fig. 4).8 An experienced dermatopathologist is critical in the evaluation and
management of these tumors because the differential diagnosis includes not only
the various histologic subtypes but also a wide variety of other malignancies, including
breast cancer, melanoma in situ, metastatic salivary gland cancer, metastatic gastro-
intestinal malignancies, clear cell thyroid cancer, Pagets disease, and Bowens
disease.8 Numerous immunohistochemical stains are used to differentiate eccrine
carcinoma from other malignancies and to differentiate subtypes. Definitive diagnosis
with light microscopy alone is difficult.
Evaluation and StagingA thorough history and physical examination are important in this rare malignancy
because the differential diagnosis often includes metastatic skin deposits from other
malignancies. Once the diagnosis has been confirmed by skin biopsy, further imaging
studies may be needed, depending on the clinical scenario. Because of the rare nature
of the disease, no specific recommendations regarding imaging can be made, but
appropriate studies to exclude other metastatic primaries in the differential diagnosis
should be performed. To the authors knowledge, no specific staging criteria have
been proposed.
Treatment
Surgical excision is the mainstay of treatment for this rare disease. Mohs surgery is
advocated in many subtypes because they involve cosmetically sensitive areas and
local recurrence is common.8,10 In other areas, however, WLE or amputation (as in
aggressive digital papillary adenocarcinoma) are the preferred treatments. Because
of the rarity of this carcinoma, no specific recommendations regarding nodal dissec-
tion have been advanced. As a general rule, nodal metastasis from eccrine carcinoma
is rare; nodal surgery is not likely to be necessary or beneficial in most cases.
Fig. 4. Malignant eccrine spiradenoma histology demonstrates aggregates of basaloid cellswith pleomorphic nuclei showing frequent mitotic activity. Scattered eccrine duct-like struc-tures are visible. (Courtesy of M. Arida, MD, and J. Janis, MD, La Crosse, WI.)
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No recommendations regarding the use of radiation or chemotherapy can be made,
but treatment with either of these modalities should be considered as part of a multi-
disciplinary approach on a case-by-case basis. In a series from the Mayo Clinic, seven
patients were treated with radiation and six experienced recurrence. The only patient
treated with chemotherapy showed no clinical response. No survival benefit was
found for either modality.8
Prognosis
Specific survival data are not known because of insufficient experience with these
tumors. Metastasis is rare, except in certain subtypes that have more aggressive clin-
ical behavior (such as aggressive digital papillary adenocarcinoma). Recurrence is
common for all subtypes.810
Summary
Eccrine carcinoma is a rare sweat gland malignancy that is usually seen beyond the
fifth decade of life. Diagnosis is difficult because the lesion is rare, has many subtypes,
and is similar in appearance to metastatic cancer lesions. Treatment is based on
complete surgical excision. Adjuvant therapies are poorly understood. Local recur-
rence is the rule, but metastases are uncommon except in certain subtypes. Chance
of survival depends on subtype.
GLOMUS TUMORS
Glomus tumors (GTs) are uncommon neoplasms of the glomus body, an arteriovenous
shunt in the skin that plays a role in temperature regulation. They were first described
by Wood in 1812, and Masson later made the histologic diagnosis in 1924.11
Glomusbodies are found throughout the skin but are concentrated in the digits. GTs are rarely
malignant and can be solitary or multiple in presentation. Although glomus cells are
found only in the skin, these rare tumors can have atypical extracutaneous loca-
tions.1215
Epidemiology
The precise incidence of these rare tumors is unknown. In a review at the Mayo Clinic,
GTs comprised only 1.6% of extremity soft tissue tumors.15 Similarly, others have
shown that GTs account for 1% to 4.5% of upper extremity tumors.15 Men and women
appear equally affected.1416 Age at presentation varies widely, with adults affectedmore often than children. Only 10% of GTs are multiple in presentation, and malignant
GTs are rare, with only 45 cases described according to a 2005 review.13,14
Etiology
GTs are felt to arise from the glomus body by proliferation of one or more of its
elements; however, the exact cause is unknown. Inherited patterns have been linked
to defects in the glomin gene on chromosome 1.12
Presentation
Solitary and multiple variants of GTs exist. Most GTs are solitary in presentation andoccur on the extremities, especially in the subungual area of the digits. The triad of
hypersensitivity to cold, paroxysmal pain, and pinpoint pain suggests the diagnosis.12
The lesions often have a bluish hue and are almost always smaller than 1 cm in diam-
eter. Lesions larger than 1 cm suggest malignancy. Although digital locations are most
common, GTs have been found in all parts of the body, including the viscera.12,13,15
Multiple GTs are less often symptomatic.
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Pathology
Histologically, GTs are irregularly shaped vascular spaces with compact nests of
polygonal cells with round nuclei and eosinophilic cytoplasm (Fig. 5). Three benign
histologic subtypes have been described, but the clinical relevance is unknown.11
Solitary GTs are encapsulated, whereas the multiple variant is unencapsulated.Malignant GTs, also known as glomangiosarcomas, are characterized by large size
(especially > 2 cm), deep location, atypical mitotic figures, moderate to high nuclear
grade, large number of mitoses, and infiltrative growth.16
Evaluation
Most of these lesions are noticed because they are symptomatic, and clinical diag-
nosis can be made by the history and physical characteristics described previously.
Three clinical tests have been described to help diagnose GTs. First, Loves test is
performed by applying pressure precisely over the area of concern with a paperclip
or pin. A positive test result produces severe pain and is reportedly 100% sensitiveand 78% accurate. Second is Hildreths test, in which a tourniquet is applied proximal
to the lesion and Loves test is then performed. A positive test result should not
produce pain. This is 71% sensitive and 78% accurate. Third, a cold sensitivity test
shows increased pain with exposure to cold and was 100% sensitive and specific
in a series of 18 patients.12
Further imaging with MRI can be performed if the diagnosis is elusive; however, its
usefulness has been questioned.12,13 In the case of malignant GTs, specific imaging
guidelines have not been defined because of the small number of cases, with only
12 of 45 known cases having metastases.14
Treatment
Complete excision is recommended for solitary symptomatic lesions. For digital GTs,
either a direct subungual or lateral digital incision can be used.12 With the multiple
variant, excision can be difficult secondary to the number of lesions. Alternative tech-
niques, including sclerotherapy (with either hypertonic saline or sodium tetradecole-
cylsulfate), electron beam radiation, and argon or carbon dioxide lasers, have been
used.13 Successful treatment of pulmonary metastases with chemotherapy has
Fig. 5. Glomus tumor histology demonstrates uniform small cells with eosinophilic ctyoplasmassociated with conspicuous vasculature. (Courtesy of M. Arida, MD, and J. Janis, MD, LaCrosse, WI.)
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been reported; however, because of the rarity of malignant GTs, the benefit of adju-
vant treatments is uncertain.
Prognosis
Most GTs are benign, have no associated mortality, and rarely recur after local exci-sion. Mortality is rare but has been documented in a handful of malignant cases.13,16
Summary
GTs are rare tumors that are usually painful, solitary, and located in the digits. Excision
of solitary lesions is the recommended treatment, whereas multiple lesions may
require alternative therapies. Recurrence, malignancy, and mortality are uncommon
in these rare tumors.
DERMATOFIBROSARCOMA PROTUBERANS
First described in 1890, dermatofibrosarcoma protuberans (DFSP) is a rare soft tissue
sarcoma that arises from the dermis. DFSP has an asymmetric growth pattern and
tends to recur locally.1719 DFSP constitutes approximately 1% of all sarcomas and
less than 0.1% of all malignancies.19 Most (approximately 90%) are low-grade
sarcomas, whereas the remainder are classified as intermediate grade because of
a high-grade fibrosarcomatous component (DFSP-FS).20
Epidemiology
The annual incidence has been reported to be 4.2 per million. Blacks have a slightly
higher incidence than whites; men and women are affected equally.21 DFSP mostcommonly presents in the mid to late 30s; however, the disease can occur at any
age.1719
Etiology
The pathogenesis of DFSP is not completely understood. Some have associated its
development with trauma, vaccinations, and scarring.19 Recently, chromosomal
abnormalities have been discovered, which suggest a genetic basis for this tumor.
Translocation between chromosomes 17 and 22 has been observed in more than
90% of cases, resulting in the activation of platelet-derived growth factor receptor.18
Presentation
DFSP often presents as a solitary, asymptomatic, plaque-like cutaneous tumor that is
violet to blue in color. The tumor usually exhibits slow growth and most commonly
presents on the trunk, followed by the extremities, head, and neck. Most lesions are
smaller than 5 cm in diameter, raised and firm, with surrounding telangiectasias. If
untreated, the tumor can become noticeably protuberant.1719,22
Pathology
Histologically, DFSP arises from the dermis as dense uniform cells that containspindle-shaped nuclei. The cells are arranged into irregular interwoven fascicles in
a storiform pattern, which is said to resemble a straw mat (Fig. 6). Tentacle-like projec-
tions of tumor are common, which may account for the high incidence of local recur-
rence after excision. Low- (DFSP) and intermediate-grade (DFSP-FS) variants exist.
The FS denotes the high-grade fibrosarcomatous component present in this type,
which constitutes approximately 10% of all cases.17,19
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Evaluation and Staging
Unless indicated by history and physical examination, extensive imaging is rarely
needed because lymphatic or metastatic spread is uncommon. Suspicious lesions
should undergo a core-needle, incisional, or excisonal biopsy to obtain histologic
diagnosis. MRI can be used to determine the degree of local invasion and aid in
surgical planning. If signs or symptoms of metastatic disease are present, further eval-uation with CT or positron emission tomographic CT may be warranted.
Staging is made according to the American Musculoskeletal Tumor Society staging
system, which is based on tumor grade and compartment involvement. Stage IA is
a low-grade tumor confined to one tissue compartment, whereas stage IB extends
into adjacent tissue compartments, that is, muscle or fascia. A stage II tumor by Amer-
ican Musculoskeletal Tumor Society definition is a high-grade lesion, and because
DFSP is either low or intermediate grade, this distinction does not apply.20
TreatmentSurgical excision is the accepted treatment, although the type of surgery and width of
surgical margins is a topic of debate. WLE with at least 3-cm margins has been the
standard of care. Considerable variation of local recurrence from zero to more than
50% with WLE has been observed, which has led to the investigation of alternative
techniques. In a recent series of 159 patients treated at Memorial Sloan-Kettering,17
21% of patients had a local recurrence, most of whom had close or positive margins.
Mohs micrographic surgery has been shown to have excellent results with low rates of
local recurrence.18,19 The best role for Mohs micrographic surgery is likely in cosmet-
ically sensitive areas. Some investigators advocate modified wide excision, a tech-
nique with Mohs-like horizontal sectioning of tissue, because this has been shownto have low rates of recurrence.19 Although many techniques exist, WLE is the stan-
dard technique for DFSP in noncosmetically sensitive areas.
Treatment of positive or close margins should include re-excision, if possible. Radi-
ation therapy has been used selectively in this instance if further surgery is not
possible or would be cosmetically unacceptable, with good local control. Experience
and data regarding radiation therapy are limited.18,22,23 Metastatic disease is
Fig. 6. Dermatofibrosarcoma protuberans histology demonstrates slender, uniform spindle
cells with darkly staining nuclei and eosinophilic cytoplasm arrayed in a storiform pattern.Subcutaneous fat is entrapped by the tumor, resulting in a lace-like appearance. (Courtesyof M. Arida, MD, and J. Janis, MD, La Crosse, WI.)
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uncommon, but if isolated, surgical resection should be performed. Chemothera-
peutic agents such as vinblastine and methotrexate have been used, but few data
are available to make specific recommendations.18 Because of DFSP tumor biology,
imatinib, a platelet-derived growth factor receptor inhibitor, has been used with some
success in advanced disease. In one series, 10 patients with locally advanced or
metastatic disease were treated with imatinib, and all but 1 patient showed a response
to treatment.23
Prognosis
Most patients with DFSP have an excellent outcome, despite the high recurrence rate.
Metastatic disease is uncommon, occurring in only 1% to 2% of cases.17,18 Mortality
is also rare. In a series of 218 patients with DFSP, the 5- and 10-year mortality rates
were 1.5% and 2.8%, respectively.18 Based on a Memorial Sloan-Kettering study,17
poor prognostic factors are (1) the DFSP-FS histologic subtype, (2) positive margins,
(3) increased mitotic rate, (4) increased cellularity, and (5) age older than 50 years.
Summary
DFSP is a rare skin sarcoma characterized by local recurrence but low metastatic
potential. Surgical WLE of primary and recurrent lesions is the mainstay of treatment.
Additional therapies, such as radiation and imatinib administration, play a role in more
aggressive disease.
ACKNOWLEDGMENTS
The authors gratefully acknowledge the contribution of Muammar Arida, MD, and
John Janis, MD, from the Department of Pathology at Gundersen Lutheran HealthSystem, who provided the four histology images.
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